2015
DOI: 10.1073/pnas.1500724112
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Electron crystallography of ultrathin 3D protein crystals: Atomic model with charges

Abstract: Membrane proteins and macromolecular complexes often yield crystals too small or too thin for even the modern synchrotron X-ray beam. Electron crystallography could provide a powerful means for structure determination with such undersized crystals, as protein atoms diffract electrons four to five orders of magnitude more strongly than they do X-rays. Furthermore, as electron crystallography yields Coulomb potential maps rather than electron density maps, it could provide a unique method to visualize the charge… Show more

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Cited by 181 publications
(182 citation statements)
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“…Additional hardware modifications may further benefit electron diffraction studies of macromolecular compounds, for example a reliable and well integrated goniometer tilt (Yonekura et al, 2015) and using an in-column energy filter research papers (Yonekura et al, 2015). The data presented here show that with a highly sensitive and accurate hybrid pixel detector, nanometre-sized crystals of macromolecules are now also possible targets for three-dimensional protein electron crystallography, which has the advantage of reducing the effects of dynamical diffraction.…”
Section: Discussionmentioning
confidence: 89%
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“…Additional hardware modifications may further benefit electron diffraction studies of macromolecular compounds, for example a reliable and well integrated goniometer tilt (Yonekura et al, 2015) and using an in-column energy filter research papers (Yonekura et al, 2015). The data presented here show that with a highly sensitive and accurate hybrid pixel detector, nanometre-sized crystals of macromolecules are now also possible targets for three-dimensional protein electron crystallography, which has the advantage of reducing the effects of dynamical diffraction.…”
Section: Discussionmentioning
confidence: 89%
“…The total diffracting volume of the crystal is no more than 6 Â 10 5 unit cells (Table 2). A comparison with structures of macromolecules previously solved by electron diffraction recorded on CCD and CMOS detectors show that these used significantly larger crystals (Nannenga, Shi, Leslie et al, 2014;Nannenga, Shi, Hattne et al, 2014;Yonekura et al, 2015;Hattne et al, 2015). Since the quality of the diffraction data from protein crystals is determined in the limiting case by the crystallinity of the sample, these data need to be interpreted with great care and should only be used to infer trends.…”
Section: Discussionmentioning
confidence: 99%
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